Method and System for Enhanced Simultaneous Hybrid Dual Receive Switching

1. In an access terminal having at least a first antenna and a second antenna, a method comprising: using both the first antenna and the second antenna in combination to engage in a communication on a first air interface operating according to a first air interface protocol; while engaging in the communication, using only one of the first antenna and the second antenna to engage in each of periodic intervals of scanning for one or more messages received on a second air interface operating according to a second air interface protocol; prior to a next periodic interval, determining air interface quality on the second air interface; and using the determined air interface quality as a basis to decide whether or not to switch which one of the first antenna and the second antenna is used to engage in the scanning during the next periodic interval, wherein the first antenna has a higher gain than the second antenna, wherein determining air interface quality on the second air interface comprises making a determination of whether the air interface quality is below a threshold, and wherein using the determined air interface quality as a basis to decide whether or not to switch which one of the first antenna and the second antenna is used to engage in the scanning during the next periodic interval comprises (i) if the determined air interface quality is below the threshold, then selecting the first antenna for the scanning during the next periodic interval, and (ii) if the determined air interface quality is not below the threshold, then selecting the second antenna for the scanning during the next periodic interval.

2. The method of claim 1 , wherein using both the first antenna and the second antenna in combination to engage in the communication comprises engaging in the communication with a base station, and wherein using only the one of the first antenna and the second antenna to engage in each of the periodic intervals of scanning comprises using the other antenna of the first antenna and the second antenna to continue to engage in the communication.

3. The method of claim 2 , wherein using the other antenna of the first antenna and the second antenna to continue to engage in the communication comprises: if the other antenna is the second antenna, then upon determination that a data-rate request from the access terminal to the base station for data received on the first air interface is greater than a threshold data rate, sending a request to the base station for a reduced data rate for data received from the base station on the first air interface.

4. The method of claim 1 , wherein the first air interface protocol is Evolution-Data Optimized (EVDO), EVDO being at least one of EVDO, Rel. 0, and EVDO Rev. A, and the second air interface protocol is 1X-RTT, 1X-RTT being at least one of 1X-RTT, Rel. 0, and 1X-RTT Rev. A, the access terminal is a hybrid access terminal, and the periodic intervals correspond to the access terminal's assigned slot cycles, and wherein the scanning for the one or more messages received on the second air interface comprises scanning the second air interface for a page message directed to the access terminal during one or more of the access terminal's assigned slot cycles.

5. The method of claim 1 , wherein the next periodic interval is preceded by a current periodic interval, and wherein determining the air interface quality on the second air interface comprises determining the air interface quality on the second air interface during the current periodic interval.

6. The method of claim 5 , wherein the first air interface protocol is Evolution-Data Optimized (EVDO), EVDO being at least one of EVDO, Rel. 0, and EVDO Rev. A, and the second air interface protocol is 1X-RTT, 1X-RTT being at least one of 1X-RTT, Rel. 0, and 1X-RTT Rev. A, and wherein determining the air interface quality on the second air interface during the current periodic interval comprises making a determination of whether a signal level received on the second air interface during the current periodic interval is below a threshold level.

7. The method of claim 6 , wherein the first antenna has higher gain than the second antenna, and wherein using the determined air interface quality as a basis to decide whether or not to switch which one of the first antenna and the second antenna is used to engage in the scanning during the next periodic interval comprises: selecting the first antenna for the scanning during the next periodic interval if the determined air interface quality is below the threshold level; selecting the second antenna for the scanning during the next periodic interval if the determined air interface quality is not below the threshold level; using the selected antenna to scan for the one or more messages on the second air interface in the next periodic interval; and using the other antenna to continue to engage in the communication on the first air interface during the next periodic interval.

8. The method of claim 7 , wherein using the other antenna to continue to engage in the communication on the first air interface during the next periodic interval comprises: if the other antenna is the second antenna, then upon a determination that a current Data Rate Control (DRC) request is greater than a threshold DRC value, sending to the base station a DRC request that is reduced by a DRC Offset from the current DRC request.

9. The method of claim 1 , wherein determining the air interface quality on the second air interface comprises predicting air interface quality on the second air interface prior to the next periodic interval based on measuring air interface quality on the second air interface prior to the next periodic interval.

10. In an access terminal that has at least a high-gain antenna and a low-gain antenna, a method comprising: using both the high-gain antenna and the low-gain antenna in combination to receive wireless communications from a base station on a time-division multiple access interface; while receiving in the wireless communications, using only one of the high-gain antenna and the low-gain antenna to engage in each of periodic intervals of scanning for a separate wireless communication received on a code-division multiple access interface; prior to a next periodic interval, determining air interface quality on the code-division multiple access interface; and using the determined air interface quality as a basis to decide whether or not to switch which one of the high-gain antenna and the low-gain antenna is used to engage in the scanning during the next periodic interval, wherein determining air interface quality on the code-division multiple access interface comprises making a determination of whether a signal level received on the code-division multiple access interface is below a threshold level, and wherein using the determined air interface quality as a basis to decide whether or not to switch which one of the high-gain antenna and the low-gain antenna is used to engage in the scanning during the next periodic interval comprises (i) if the determination is that the signal level is below the threshold level, then selecting the high-gain antenna for the scanning during the next periodic interval, and (ii) if the determination is that the signal level is not below the threshold level, then selecting the low-gain antenna for the scanning during the next periodic interval.

11. The method of claim 10 , wherein the access terminal is a hybrid access terminal, the periodic intervals correspond to the access terminal's assigned slot cycles, and the next periodic interval is preceded by a current periodic interval, wherein the time-division multiple access interface comprises an air interface configured to operate according to Evolution-Data Optimized (EVDO), EVDO being at least one of EVDO, Rel. 0, and EVDO Rev. A, wherein the code-division multiple access interface comprises an air interface configured to operate according to 1X-RTT, 1X-RTT being at least one of 1X-RTT, Rel. 0, and 1X-RTT Rev. A, and wherein determining the air interface quality on the code-division multiple access interface comprises predicting air interface quality on the code-division multiple access interface in the access terminal's next assigned slot cycle based on measuring air interface quality on the code-division multiple access interface during the access terminal's current assigned slot cycle.

12. The method of claim 11 , wherein using only the one of the high-gain antenna and the low-gain antenna to engage in each of the periodic intervals of scanning comprises: selecting only the one of the high-gain antenna and the low-gain antenna to engage in any given one of the periodic intervals of scanning; using the selected antenna to scan for a page message on the code-division multiple access interface in the any given one of the periodic intervals; and using the other antenna to continue to receive the wireless communications on the time-division multiple access interface during the any given one of the periodic intervals.

13. The method of claim 12 , wherein using the other antenna to continue to receive the wireless communications on the time-division multiple access interface during the any given one of the periodic intervals comprises: if the other antenna is the low-gain antenna, then upon a determination that a current Data Rate Control (DRC) request is greater than a threshold DRC value, sending to the base station a DRC request that is reduced by a DRC Offset from the current DRC request.

14. An access terminal comprising: a high-gain antenna and a low-gain antenna; means for using both the high-gain antenna and the low-gain antenna in combination to receive wireless communications from a base station on a time-division multiple access interface; means for using only one of the high-gain antenna and the low-gain antenna to engage in each of periodic intervals of scanning for a separate wireless communication received on a code-division multiple access interface, while receiving the wireless communications on the time-division multiple access interface; means for determining air interface quality on the code-division multiple access interface, prior to a next periodic interval; and means for using the determined air interface quality as a basis to decide whether or not to switch which one of the high-gain antenna and the low-gain antenna is used to engage in the scanning during the next periodic interval, wherein determining the air interface quality on the code-division multiple access interface comprises making a determination of whether a signal level received on the code-division multiple access interface is below a threshold level, and wherein using the determined air interface quality as a basis to decide whether or not to switch which one of the high-gain antenna and the low-gain antenna is used to engage in the scanning during the next periodic interval comprises (i) selecting the high-gain antenna level for the scanning during the next periodic interval if the determination is that the signal level is below the threshold, and (ii) selecting the low-gain antenna for the scanning during the next periodic interval if the determination is that the signal level is not below the threshold level.

15. The access terminal of claim 14 , wherein the access terminal is a hybrid access terminal, the periodic intervals correspond to the access terminal's assigned slot cycles, and the next periodic interval is preceded by a current periodic interval, wherein the time-division multiple access interface comprises an air interface configured to operate according to Evolution-Data Optimized (EVDO), EVDO being at least one of EVDO, Rel. 0, and EVDO Rev. A, wherein the code-division multiple access interface comprises an air interface configured to operate according to 1X-RTT, 1X-RTT being at least one of 1X-RTT, Rel. 0, and 1X-RTT Rev. A, and wherein determining the air interface quality on the code-division multiple access interface comprises predicting air interface quality on the code-division multiple access interface in the access terminal's next assigned slot cycle based on measuring air interface quality on the code-division multiple access interface during the access terminal's current assigned slot cycle.

16. The access terminal of claim 15 , wherein using only the one of the high-gain antenna and the low-gain antenna to engage in each of the periodic intervals of scanning comprises: selecting only the one of the high-gain antenna and the low-gain antenna to engage in any given one of the periodic intervals of scanning; using the selected antenna to scan for a page message on the code-division multiple access interface in the next periodic interval; and using the other antenna to continue to receive the wireless communications on the time-division multiple access interface during the any given one of the periodic intervals.

17. The access terminal of claim 16 , wherein using the other antenna to continue to receive the wireless communications on the time-division multiple access interface during the any given one of the periodic intervals comprises: if the other antenna is the low-gain antenna, then upon a determination that a current Data Rate Control (DRC) request is greater than a threshold DRC value, sending to the base station a DRC request that is reduced by a DRC Offset from the current DRC request.